Summer dangers: Sun's heat turns pavements into burn hazards

Asphalt and concrete in direct sunlight can often reach surface temperatures as high as 82 Celsius on the hottest days, said Dr. Kevin Foster, who directs the Arizona Burn Center in Phoenix.
FILE PHOTO: Shipping containers turned into shelters for the homeless are seen in Phoenix, Arizona, U.S., July 27, 2023. "The X-Wing" consists of four 40-foot steel shipping containers in the shape of an 'X', with private air conditioned 5-foot by 8-foot rooms, as temperatures in Phoenix have reached over 110 degrees Fahrenheit for 28 consecutive days, setting a new record.
FILE PHOTO: Shipping containers turned into shelters for the homeless are seen in Phoenix, Arizona, U.S., July 27, 2023. "The X-Wing" consists of four 40-foot steel shipping containers in the shape of an 'X', with private air conditioned 5-foot by 8-foot rooms, as temperatures in Phoenix have reached over 110 degrees Fahrenheit for 28 consecutive days, setting a new record. REUTERS/Liliana Salgado/File Photo
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(Reuters) - It only takes just a fraction of a second to suffer a pretty serious burn. Asphalt and concrete in direct sunlight can often reach surface temperatures as high as 82 Celsius (180 Fahrenheit) on the hottest days, said Dr. Kevin Foster, who directs the Arizona Burn Center in Phoenix.

Forecasters predict another heat wave in Phoenix this week after the U.S. National Weather Service declared the city had sweltered under high temperatures above 43°C (115°F) for 30 consecutive days in July. Across Europe, high temperature records have tumbled this summer and major heat waves in much of the world are expected to persist through August.

Due to the elevated temperatures in Phoenix, doctors have treated numerous patients who suffered burns from falling on the ground or touching surfaces that were much hotter than the recorded air temperature.

Surface temperatures play a critical role in how hot the surrounding area gets and also present a health risk during extreme heat events.

During heat waves, a substantial amount of the sun's energy is absorbed and reflected by surfaces exposed to its rays, leading to their temperatures increasing significantly. These warm surfaces then transfer their heat to the surrounding air, increasing the overall air temperature. While some permeable and moist surfaces, like grass or soil, absorb less heat, other construction materials like asphalt or concrete are capable of absorbing as much as 95% of the sun's energy, which is then radiated back into the surrounding atmosphere.

During days when the thermometer shows 38°C (100°F), this temperature refers to air temperature, which meteorologists usually measure over a metre (several feet) above the surface. However, at those temperatures, surfaces such as asphalt or cement can reach temperatures higher than 65°C (149°F), which can cause skin burns. It's important to be aware of these surface temperatures and take precautions to avoid injuries.

URBAN HEAT ISLANDS

The process of urban development profoundly changes the landscape. Natural and permeable surfaces are replaced by impermeable structures like buildings and roads. This creates what climatologists call “urban heat islands”, areas within cities that experience significantly higher temperatures compared to nearby rural regions.

These are also areas with high concentrations of people. In Europe, nearly half of schools and hospitals in cities are located in urban heat islands, exposing vulnerable populations to health-threatening temperatures as climate change impacts worsen, according to the European Union's environment agency.

According to the U.S. Environmental Protection Agency, the annual mean air temperature of a city with 1 million or more people can be 1 to 3°C (1.8 to 5.4°F) warmer than its surrounding areas. On a clear, calm night, this temperature difference can even reach as high as 12°C (22°F) compared to rural areas.

Urban heat islands are created through a combination of factors. Green spaces and vegetation play a vital role in reducing surface temperatures through evapotranspiration, where plants release water to the surrounding air, dissipating ambient heat. Meanwhile, urban geometry, with its obstructive structures, traps heat at night. Additionally, urban surfaces absorb and store more heat compared to natural ground cover, raising temperatures further. Understanding these factors helps us create cooler and more sustainable cities.

Thermal satellite images reveal cities' thermal profiles, areas that experience warmer and cooler temperatures based on the local landscape. The difference parks make in cities' temperature shows the critical balance between urban development and green spaces, which help mitigate high temperatures. Even small green spaces can make a difference. In Greece, city planners in Athens have created “pocket parks”, transforming small plots once ridden with garbage and weeds.

“It’s about creating green spaces, lowering the temperatures, giving quality of life and creating new reference points inside the city,” Athens Mayor Kostas Bakoyannis said.

(Reporting and graphic by Mariano Zafra; Editing by Jon McClure and Lisa Shumaker)

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